Abstract:
A display device includes a window, a display panel disposed below the window, and an adhesive layer disposed between the window and the display panel. The window includes a glass portion, and a synthetic resin portion overlapping at least a side surface of the glass portion and exposing the upper surface of the glass portion.
Abstract:
A cover window for a display device includes: a first film; a second film on the first film; and an adhesive layer between the first film and the second film. The adhesive layer has a lap shear modulus in a range of 20 kPa to 50 kPa.
Abstract:
An electronic device includes a foldable display device, a supporting member, and a housing. The foldable display device includes at least one folding area and a plurality of non-folding areas. The supporting member is disposed in the non-folding areas to support the foldable display device. The housing includes a body part that contains the foldable display device and the supporting member, and a hinge member that folds or unfolds sections of the body part, the body part supporting the supporting member for movement relative to the housing. A folding axis defined in the folding area by the location of the hinge member is changeable in response to movement of the supporting member in the housing.
Abstract:
Provided is a display window for a display apparatus, the display window including a base plate; a plurality of first coating patterns on an entire first surface of the base plate spaced from one another; and a plurality of second coating patterns on an entire second surface of the base plate spaced from one another and corresponding to the first coating patterns. A width of each of the first coating patterns is less than a width of a corresponding second coating pattern.
Abstract:
A thin film transistor (TFT) includes a gate electrode disposed on a substrate. An oxide semiconductor layer is disposed on the gate electrode. An insulation layer is disposed on the oxide semiconductor layer. The insulation layer includes a first contact hole that exposes a first part of the oxide semiconductor layer corresponding to a first end of the gate electrode and a second contact hole that exposes a second part of the oxide semiconductor layer corresponding to an opposite end of the gate electrode. A source electrode is disposed on the insulation layer and contacts the first part of the oxide semiconductor layer through the first contact hole. A drain electrode is disposed on the insulation layer and contacts the second part of the oxide semiconductor layer through the second contact hole.
Abstract:
A thin film transistor (TFT) includes a gate electrode disposed on a substrate. An oxide semiconductor layer is disposed on the gate electrode. An insulation layer is disposed on the oxide semiconductor layer. The insulation layer includes a first contact hole that exposes a first part of the oxide semiconductor layer corresponding to a first end of the gate electrode and a second contact hole that exposes a second part of the oxide semiconductor layer corresponding to an opposite end of the gate electrode. A source electrode is disposed on the insulation layer and contacts the first part of the oxide semiconductor layer through the first contact hole. A drain electrode is disposed on the insulation layer and contacts the second part of the oxide semiconductor layer through the second contact hole.
Abstract:
A hard coating composition includes a norbornene-based compound represented by a Chemical Formula 1 and a polymer including at least one of an epoxy-based resin, a polyurethane-based resin, or an acrylic resin.
Abstract:
An exemplary embodiment provides a cover window for a display device, including: a first film; a second film disposed on the first film; and an adhesive layer disposed between the first film and the second film, wherein the adhesive layer includes an elastic polymer, and wherein a ratio of a thickness of the second film to a thickness of the first film is in a range of 0.2 to 5.
Abstract:
A cover window for a display device includes a first film; a second film on the first film; an adhesive layer between the first film and the second film; a coating layer on the second film; and an inner anti-reflective layer between the first film and the coating layer.
Abstract:
An exemplary embodiment provides a stretchable display device which is stretched in at least one direction. The stretchable display device according to the exemplary embodiment includes a stretchable substrate, a display unit, a plurality of rigid lenses, and a transparent elastic part. The display unit is on the stretchable substrate, and includes a plurality of light sources and a plurality of stretchable electrodes. The rigid lenses are disposed to correspond to the plurality of light sources, respectively. The transparent elastic part encloses the plurality of rigid lenses on the display unit and is stretched along with the stretched substrate and when being stretched, forms lens surfaces corresponding to the plurality of rigid lenses, respectively.